XLVI

ZVENIGOROD INTERNATIONAL CONFERENCE
ON PLASMA PHYSICS AND CONTROLLED FUSION

(Zvenigorod, Russia, March, 2019)

Section "Inertial Fusion"
Chairman - Vergunova Galina A.
  1. 1Gus'kov S.Yu., 2Zmitrenko N.V., 1,2Kuchugov P.A., 1Yakhin R.A. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia)
    Effect of fast electrons on the compression and burning of the laser fusion targets.

  2. Vichev I.Yu., Solomyannaya A.D., Grushin A.S., Kim D.A., Tsygvincev I.P., Yartsev B.L. (Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia)
    THERMOS Toolkit: software and databases package for calculating properties of LTE and non-LTE plasmas.

  3. 1Topor O.I., 1Fedorov I.A., 1,2Belov A.A., 3Kalitkin N.N. (1M.V. Lomonosov Moscow State University, Moscow, Russia, 2Peoples’ Friendship University of Russia, Moscow, Russia, 3Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia)
    Improved approximations of cross sections and rates of thermonuclear reactions.

  4. Balakin A.A., Levin D.S., Skobelev S.A. (Institute of Applied Physics RAS, Nizhny Novgorod, Russia)
    New regimes of Raman compression of laser pulses in plasma.

  5. 1,2Bochkarev S.G., 3d'Humières E., 3,4Tikhonchuk V.T., 5,1Korneev F.A., 1,2Bychenkov V.Yu. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2Dukhov All-Russia Research Institute of Automatics, Moscow, Russia, 3Centre Lasers Intenses et Applications, Université de Bordeaux, Talence, France, 4ELI-Beamlines, Institute of Physics, Academy of Science, Prague, Czech Republic, 5Moscow Research Nuclear University MEPhI, Moscow, Russia)
    Electron acceleration and heating in the overlaping region of intense picosecond laser pulses.

  6. Dolinskii V.Yu., Ershov D.A., Falin A.P., Garanin S.F., Garin A.V., Petrushin O.N., Shigaev Yu.S. (Russian Federal Nuclear Center - Institute of Experimental Physics, Sarov, Russia)
    Prospects for development of a pulsed source with a yield of 1014 DT-neutrons based on the spherical DPF chamber.

  7. Prokuratov I.A., Dulatov A.K., Lemeshko B.D., Mikhailov Yu.V. (Dukhov All-Russia Research Institute of Automatics, Moscow, Russia)
    Counter ion beams device for neutron generation based on inertial electrostatic confinement.

  8. Ivanenkov G.V., Romanova V.M. (P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    On the phase state of thin wire cores during fast electric explosions.

  9. 1Shelkovenko T. A., 1Tilikin I. N., 1Mingaleev A. R., 1Romanova V. M., 1Pikuz S. A., 2Hammer D. A. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2Cornell University, Ithaca, New York, USA)
    Nanosecond explosion of thin flat foils.

  10. Parkevich E.V., Ivanenkov G.V., Medvedev M.A., Khirianova A.I., Agafonov А.V. (P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Mechanism of spark channels filamentation in an atmospheric discharge.

  11. 1Kurilenkov Yu.K., 1,2Oginov A.V., 1Tarakanov V.P., 1,2Gus'kov S.Yu., 1Samoilov I.S., 1Ostashev V.E., 1Karpukhin V.T. (1Joint Institute for High Temperatures of Russian Academy of Sciences, Moscow, Russia, 2P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    A neutronic synthesis of proton – boron in a compact scheme of inertial electrostatic confinement (IEC).

  12. 1Aleksandrov V.V., 1Frolov I.N., 1Grabovskii E.V., 1Gritsuk A.N., 1Ivanov M.I., 2Kalinin Yu.G., 2Korolev V.D., 1Lauhin J.I., 1Medovshchikov S.F., 1Mitrofanov K.N., 1Olejnik G.M., 2Smirnova E.A., 1Volkov G.S., 3Volobuev I.V. (1State Scientific Center Troitsk Institute for Innovative and Thermonuclear Investigations, Municipal district Troitsk, Moscow, Russia, 2National Research Centre "Kurchatov Institute", Moscow, Russia, 3P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Dynamics of implosion of wire arrays onto deuterated target.

  13. 1Aleksandrova I.V., 1Koresheva E.R., 1Timasheva T.P., 2Yaguzhinskiy L.S. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2M.V. Lomonosov Moscow State University, Moscow, Russia)
    Targets for inertial fusion: preparation of gaseous fuel mixtures with different amountв of additives for the formation of isotropic cryogenic layers from hydrogen isotopes.

  14. Frolov A.A. (Joint Institute for High Temperatures of Russian Academy of Sciences, Moscow, Russia)
    Emission of terahertz waves during interaction of laser pulse with dense hot plasma.

  15. 1,2Kuchugov P.A., 2Gus'kov S.Yu., 1Zmitrenko N.V., 2Yakhin R.A. (1Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia, 2P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Distinctive features of strong shock wave generation by a beam of laser-accelerated fast electrons.

  16. Gromov A.I., Akunets A.A., Borisenko N.G., Pervakov K.S. (P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Low-density (0.9-0.2 of solid matter) targets for ICF research, characteristic features of technology and monitoring.

  17. Milant'ev V.P. (Peoples’ Friendship University of Russia, Moscow, Russia)
    On the possibility of averaging the relativistic equations for electron motion in the field of intense laser radiation.

  18. Milant'ev V.P. (Peoples’ Friendship University of Russia, Moscow, Russia)
    Averaged motion of electron in the field of the laser pulse propagating along the constant magnetic field.

  19. Castillo A.J., Milant'ev V.P. (Peoples’ Friendship University of Russia, Moscow, Russia)
    Averaged equations of relativistic particle motion in the field of two laser beams.

  20. 1Romanov I.V., 2Tsygvintsev I.P., 1Kologrivov A.A., 3Paperny V.L., 2Vichev I.Yu., 2Grushin A.S. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia, 3Irkutsk State University, Irkutsk, Russia)
    On a possibility to increase the radiation properties of the plasma of low-power vacuum discharge with laser ignition.

  21. Tilikin I.N., Tzhai S.N., Shelkovenko T.A., Savinov S.Yu., Pikuz S.A. (P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Radiative characteristics of prebreakdown stage of a high current surface discharge.

  22. 1Nikulin V.Ya., 1Tsybenko S.P., 1Gurei A.E., 2Startsev S.A. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2Financial University under the Government of the Russian Federation, Moscow, Russia)
    Mechanism for current filament generation in plasma focus.

  23. 1Pastukhov A.V., 2Davankov V.A., 1Borisenko N.G., 1Akunets A.A. (1P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 2A.N. Nesmeyanov Institute of Organoelement Compounds RAS, Moscow, Russia)
    Porous structure of low-density hypercrosslinked polymeric meshes – candidate materials for laser targets.

  24. 1Aleksandrov V.V., 1Grabovskiy E.V., 1Gritsuk A.N., 1Mitrofanov K.N., 1Oleinik G.M., 2Basko M.M., 2Sasorov P.V., 3Shevelko A.P. (1State Scientific Center Troitsk Institute for Innovative and Thermonuclear Investigations, Municipal district Troitsk, Moscow, Russia, 2Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia, 3P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Time dependence of the spectral transmission of plasma created by the radiation ablation of thin indium foils irradiated by X-ray emission pulse of Z-pinch.

  25. Bolkhovitinov E.A., Tilikin I.N., Shelkovenko T.A., Mingaleev A.R., Romanova V.M., Kologrivov A.A., Rupasov A.A., Pikuz S.A. (P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Studies of VUV radiation of hybrid and standard X-pinches on the KING discharge facility.

  26. Svirsky E.B., Veselovzorov A.N. (National Research Centre "Kurchatov Institute", Moscow, Russia)
    Project of the rocket engine based on nuclear synthesis (RENSYR).

  27. Alexandrov V.V., Volkov G.S., Grabovsky E.V., Gritsuk A.N., Medovschikov S.F., Oleinik G.M., Frolov I.N., Khil'ko M.V. (State Scientific Center Troitsk Institute for Innovative and Thermonuclear Investigations, Municipal district Troitsk, Moscow, Russia)
    Effect of inherent magnetic fields of fast electron beam generated in high-current Z-pinches on the intensity of breamsstrahlung and characteristic radiation of pinch plasma.

  28. Baronova E.O., Vikhrev V.V. (National Research Centre "Kurchatov Institute", Moscow, Russia)
    Method for determination of maximum electron temperature and electron density of pinch plasma.

  29. 1Vikhrev V.V., 1Baronova E.O., 2Dodulad E.I., 3Frolov A.Yu. (1National Research Centre "Kurchatov Institute", Moscow, Russia, 2Moscow Research Nuclear University MEPhI, Moscow, Russia, 3Bauman Moscow State Technical University, Moscow, Russia)
    Neutron yield of Z-pinches with power ion energy distribution.

  30. Rozanov V.B., Vergunova G.A. (P.N. Lebedev Physical Institute of RAS, Moscow, Russia)
    Analysis of experiments on indirect irradiation of targets for thermonuclear ignition at the NIF facility.

  31. Ananyev S.S., Suslin S.V. (National Research Centre "Kurchatov Institute", Moscow, Russia)
    Numerical simulation of plasma dynamics at noncylindrical Z-pinch facilities.

  32. Repin B.G., Rep'ev A.G., Pokrovsky V.S., Filippov A.V., Kornilov S.Yu. (Russian Federal Nuclear Center - Institute of Experimental Physics, Sarov, Russia)
    Implosion features of composite multiwire arrays powered by microsecond current pulses with amplitude up to two megamperes.

  33. 1,2,3Kovalev V.F., 2,3Bochkarev S.G., 2,3Bychenkov V.Yu. (1Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia, 2P.N. Lebedev Physical Institute of RAS, Moscow, Russia, 3Dukhov All-Russia Research Institute of Automatics, Moscow, Russia)
    Radial adiabatic expansion of the laser-heated cylindrical target plasma.

  34. Shcherbakov V.A., Atamanenko V.D. (Russian Federal Nuclear Center - Institute of Experimental Physics, Sarov, Russia)
    On the threshold of thermonuclear ignition of the preliminary compressed DT gas by focused spherical shock waves.

  35. 1Krasovitskii V.B., 2Turikov V.A. (1Keldysh Institute of Applied Mathematics of the RAS, Moscow, Russia, 2Peoples’ Friendship University of Russia, Moscow, Russia)
    Interaction of high-power laser padiation with plasma at the double upperhybrid frequency in a strong magnetic field.




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